boesger



March 22 1927. 1,621,824

G. A. BOESGER DUST ARRESTER Filed Feb. 6, 1924 T Sheets-Sheet 1 ATTORN March 22 1927.

G. A. BOESGER DUST ARRESTER Filed Feb. 6. 1924 7 Sheets-Sheet 2 INVENTOR. George A. Boesfger 'rf Mmmm?Y March 22 1927' G. A. BoEsGER DUST AHRESTER Filed Feb, e, '1924 TRB,

'7 Sheets-Sheet :5

INVENTOR.

George Aoesger ATTORNEYS.

March 22 1927.

G. A. BoEsGER DUST ARRESTER Filed Feb. e, 1924 7 Sheets-Sheet 4 IN VEN TOR.

George A. Eaoesger BY fig, 5&2.; *l

A TTORNE March 22 1927.

G. A. BOESGER DUST ARRESTER Filed Feb. 6, 1924 lal 7 SheetsShet 5 IIS INVENTOR.

George A. Boesger ATTORN rag;

1,621,824 March 22 1927- G' A- BOESGER DUST ARRESTER Fi-led Feb. 6, 1924 7 SheBtS-Shet 6 INVENTOR.

George A. Boesger l VWM es? ATToRNE 1,621,824 G. A. BoEsGER DUST ARRESTExK Filed Feb. 6, 1924 7 Sl'usets-Sheet 7 March vzz, 1921.

v mu.

35 INVENToR.

i George. A. Boesger' BY V7?? ATTORNE r the collected dust.

Patented Mar. 22, 1927.

UNITEDN STATES 1,621,824 PATENT OFFICE.

GEORGE A. BOESGER, OF CLEVELAND, OHIO, ASSG-NOR TO THE W'. W. SLY MANUFAC- TURING COMPANY, OF CLEVELAND, OHIO, A CORPORATION OF OHIO.

DUST ARRESTER.

Application led February The present invention relates to dust-ar resting or collecting apparatus, and more particularly relates to a dust-arrester which collects the dust by passingthe dust-laden air through a series of screens, the dust being,r shaken or knocked oif the screens. The particular object of the present device is the arrangement whereby the arrester may be operated continuously. Heretofore with dust-arresters of this-type such as are commonly used in connection with sand-blasting apparatus, and like installations, it has been necessary to stop the flow of air while the screens are rapped or vibrated to knock out In the present arrester the apparatus is divided into a series of units which are individually closed down and rapped and the operating mechanism automatically shuts each unit down and raps the saine and again places it in operation so that the arrester as a whole may be operated continuously. To the accomplishment of the foregoing and related ends, said invention, then, Consists of the means hereinafter fully described and particularly pointed out in the claims.

The annexed drawing and the following description set forth in detail certain mechanisiii embodying the invention, such disclosed means constitutiny, however, but one of various mechanical forms in which the principle of the invention may be used.

In said annexed drawings Fig. 1 is a front elevational view of the arrester shown as mounted above the floor level; Fig. 2 is an end elevation of the arrester from the right of Fig. 1; Fig. 3 is a horizontal sectional view on the line 3-3 of Fig. 1 showing a plan layout of the chambers; Fig. et is an enlarged plan view showing the arrangement of the operating mechanisin, the casing,- walls being; in section and the screens being removed; Figi'. 5 is an enlarged transverse vertical section taken on the line 5-5 of Fig. 4; 6 is a sectional view on the line 6 6 of Fig'- 3 through the air supply pipes to the various screen chambers; Fig. 7 is a fragmentary diagrammatic view showing the arrangement of 'the screens; Figs. 8 and 9 are elevational views of the `cam mechanism for controllingY the scr-een rapping device, showing' the saine in inoperative andoperative rapping positions resoectively; Fig. 10 lis an elevational view of te salme cara mechanism with a 6, 1924. Serial N0. 690,902.

removed; Fig. 11 is a detail sectional view of one forni of an individual screen; and Fig. 12 is an enlarged detail view of the rapping mechanism shown in Fig.

rlhe present arrester is shown as mounted on a suitable frame work comprising` a series of upriglits or legs 1 and cross girders 2 which form the frame work or platform, although it is of course obvious that the arrester proper could be mounted directly upon the floor of the room where the room beneath is available, the hoppers and operating mechanism extending into the room below. rlhe uprights are provided with braces 3 which with the girders form a rigid platform, the particular construction of which is unimportant so .long as a satisfactory sup portingr platform is provided.

rllhe arrester proper comprises a main casing' `or box 9 of general rectangular form which is divided into a series of chambers. The chamber 10 atthe left, as best shown in Figs. 1 and 3, extends the full depth of the main casing and is the settling chamber. 'lliere are also a .series of screening or classifying chambers 11, 12, and 13, within the casing and these extend only part way through the main casing' opening' into a longitudinal exhaust cliamber 15 at the rear. rlhe dust-laden air enters the settling' chamber through a suitable pipe or conduit 16 at the top, and the exhaust or outlet pipe 17 for the clean air is connected to the end of the exhaust chamber away from the settling chamber or opposite the screen chamber 13. The settling chamber has an opening 18 near the top communieating,` with a box 19 from which three conduits extend along the front of the casing, the upper conduit 21 extending to the first screen chamber 11, the second or middle conduit 22 communicating with the middle screen chamber 12 and the third or lowest conduit 23 communicating with the last screen chamber 13. Each conduit is provided with a damper 24- The necessary air current through the arrester is obtained from a suction fan 28 mounted on the platform at the rear of the arrester and connected to the exhaust pine 17. Vifhis fan is driven from any ksuitable power source, here shown as a motor 29, the motor being connected to the fan by abelt 30, but any suitable type of fan and power drive may be The teer have a hopper at the bottomextending downwardly Ylr'om the level of the platform, these hoppeg'el ending in a narrou7 neck 26 from which the collected dust may be discharged'intosuitable drums or containers 27 which are removably mounted underneath the hoppers.

The incomingdust-laden air enters the settling chamber 10 through 'the pipe lli-and the heavier' or coarser particles ot duet or lgrit dropout dueto the lowering'ot the `v velocity of airas it paeees iintothe chamber.

Such accumulatedcoarse dust, grit :and dirt dropeinto the hopper land is discharged l' out through fthe bottom opening -or neck 'into the removable container, the neck (havang a continuously operating va'lfe 'to bedefscri'bed inf det-ail hereinafter.

*dust-laden air passes through the Vhopper. j mounted a vertical fba'l'ile plate Il() opposite 'The duet-laden air, having lost a portion 4fofithe fdustyno'w :pasaea out' through the cm1- kduitSQl, l22 and Qflinto `Jthe several screen chambers, v1he 4three chambers all hei-ng m "oper-ation at `certain times. kThe `air with `heavier dust particles tende Ito go outthrough fthe upper lconaluit 2lA ae this is' `'cloeest to the in-letl pipe "16, theother two eon- 'duits `talking the lremaii'ider of the' d'ustiladen air. l yEach screenf chamber is rectangular with the rear en'dopen to Vthe exhaust-chamber l5. "These threefehambers'are identical and each has at the vhack a raiecd plate 130 with an 'angleiron 3l at ite vtop' 'extending longitu- `din'allyol thechamber. A'ee'cond angleiron ZZeXteI'idev across the ehamlfier about Vat the fcentra'l' point `but slightly 'lower thanV vthe llanglel. Il-he screen frames rest-enthese two angles and lit snugly between the same "andthe to 9 of the caeino' each'eereen frame Ythe conduit opening.;` to prevent the dustdaden air from impmging directly against the ,Screen cloth. This baille plate also acts fmA "-to'drop out fa certain amount to break up ithe air current and cause the yair 'of duet directly into the hopper. Y Y

The rapping mechanism for' each vemreeu Ychamber is the 'same andceinprises; a Spring bar -4-1 attached at its rear end to fthe frame- Work "or Jto one ofl the supportingfgirders and havinga fulcrum l2 on 1f-longitudinal Shaft f' hammer blocl trip 45'( This carried by the platform. At ite 'for- Ward or free end the spring bar has a le andan extending end or hammer block in the normal alfinement longitudinarl-ly. `the' arrester are twoelurfts 52 and 53,fbotl1 rotated V'contmuouely, Ishaft '52 being Athe Y arrester. l n uprovl'ded'with a bevel'gear 59 meshing With lrivi'ng the Shaft 5:5 through; a Aworm wheel ($2. The tim-ingshaft'53v rotates veryelowly,

the

-position of the hammer bar is. in contact with the forward angle iron 32 on which thel screens are supported, Y provided for 'movlgthe hammerbar -doWn- Ward'ly and then suddenly releasing the same soas-to allow it to spring back and rapV the angle iron 2 and thus rap or vibrate the `Screen to knock-the accumulated dust andV grit out of the same into the hopper. The 'operating mechanism for the hammer mech 'zanism is arranged so th'ateach ecreenfcham- Vber is shut down andarapped, "theunefbe tween such 'rapping dependingupon the ymaterial heme; screenedfhutwfor average' Vuse Veach #screen ie rapped 'forfabout 'one' :minute in itWenty-fone `and Ithe timing is feo arranged that the ytrmes `between 1-{azp1r1'ngsf-arcfNeveu.

'The timingr and rapping operation k:1re-autormatic ally accomplished.

ll/lounted longitudinally of the ymachine 'lluderneath the 'Screen chambers :and through :the same is a Vlongjitudinalextending *continuously rotating Shaft `50; lhack-ofV thie shaft 'area series o't rocker sbatte v5l in At 'the front of operating Yshaft and shaft 53 i being the 'i timing Shaft. 'Ati thelleft of` the `machine (see Ll) is -nwuntedfel :motor or other con-etant lspeed power drive, the-motor 8 Adriving tl'iroug'hk reduction gears 54 land 55 Vthefshalt550; 'llhisshaft has-at-its-outerend a Worm Wheel. 57 "driving a Worm 56 fon L'a cross sha-ft 58 mounted at the end yoff the its 4vicor'vvardV endwshaft `58' iS a bevel .gear 60 on the4 operating ShaftV 52 and'lshaft 58walso'has a reducing wor-1n. (Sl

Qperating means are` cach complete revolution"being made according to the -tinieliora complete cycle of rapjing' all `three Screens or xin tliewisual "n1-ingthe Shaft malceeone revolution mvfery twenty- Ione minutes, fThe (operati-ng fshaft `runs at Vabout livey Sand'foue-halfl revohiitious y"per minute While shaft 50, which AIcarries rlthe vhammer tripa, is vdrivenA over one hundred revolutions per min te, Ythis ,ffpee-l being varied 'with the Size ol Screen' to `givegreatest yrzqgiping eliiciencv. 7 Y "Mounted `on the :hammer-trip: 5 adapted. to Contact the end `baraand 'force themv down- 'lution vofthe .eha'ft'heing adapted to'jolt o1' the spring bar 451 is in contact Withthe front supporting` angle iron '32,- lb'utthese 'spring bars: arel held 'awayV fromvthe ngrle liron by means 'of a latch '66 riveted orotheiwise attached tothe endofthespring. On each rocker shaft 5l is a bell crank 67 which in shaft :arela series of' i lil() -rap the screen'onee. The normal position off its normal position, as shown in Fig. 5, engages with the latch and holds the spring' bar in the position shown in full lines in Fig. 5.

The controlling mechanism for these bell cranks comprises an adjustable rod 68 attached at its forward end to a pivotally mounted quadrant 69. At the front ot the arrester there are mounted a series of supporting brackets 70, one tor each screen chamber. On each bracket mounted a base 71 having an upstanding plate 72 carrying a bearing 73 for the operating shaft 52 and also a bearing 74 for the timing` shaft 53. This plate is provided with an eccentric slot 75. At the top, as shown in Fig. 8, the quadrant is removably connected to a rod 76 which extends vertically and is connected to the weighted damper operatingarm 77.

The curved outer edge oi the quadrant has a portion cut away to provide a shoulder 78 normally engaged by a latch member 79 mounted on a pin 80 carried by the plate and this member 79 has a weight 81 and a trip lever 82. lVhen the quadrant is held in the position shown in Figs. 5 and 8, the spring bar and hammer are in their retra-cted inoperative position.

Adjustably mounted on the timing shaft 53 are pairs of collars 83 and 84, each collar` being held in place by a set screw or the like. The collars 83 and Stliave operating dogs 86 and 87 formed thereon respectively. As the timing shaft 53 rotates the collar 83 and the dog S6 likewise rotate unt-il the dog S6 contacts and raises the trip lever82 thus releasing the quadrant and allowing it to pivot about the shaft 52 due to gravity until it reaches the position shown in Fig. 9, at which point the damper is closed and the spring bar released to allow rapping ot the screen.

On the side next the plate the quadrant has a slotted boss 9() having a curved end 91..

ithin the slot is slidably mounted latch 92 haviiw a lug 93 extending into the eccentric slot 7o. This latch 92 has a notch 89 therein and is normally forced radially inward ot the quadrant by the spring 94. mounted in the curved end 91 ot the boss 90 and having its lower leg contact-ing abell crank hook member 95 pivotally mounted about a pin 9G in the plate, the hook end 97 of the bell crank engaging in the notch 89 to hold the latch 92 in its retracted position. The arm 98 ot the bell crank extends outwardly into the path of travel ot the dog 87 on the collar Sil. As the dog- Si" contacts the arm 98, it

raises the latter until the hook is withdrawn from the notch allowing the latch to move in the boss to the position shown in Fig. 10. Mounted on the shaft 52 are a series ot litt-- ing or operating fingers 100 which rotate continuously, each finger being in line with the latch 92 for each screen chamber. As

the latch 92 takes the position shown in Fig. 10, it projects into the path ot movement ot the finger 100 and the rotation of the :linger moves the latch and quadrant about the shaft as a center until the quadrant reaches the position shown in Fig. 8, when the latch member T9 will engage with the shoulder 78 to prevent return ot the quadrant. During this movement et the quadrant, the latch 92 is gradually retracted due to the action ot the lifig 93 in the eccentric slot 75 so the latch is withdrawn from the path ot the finger when the quae rant is caught by the latch member 79. its the latch 92 is fully retracted the hook bell crank 95 pivots under the action ot the. spring 9d so as to retain the latch in its retracted position. The damper is oi" course opened by the movement ot the rod 7G. The entire operating mechanism is thus again set tor the next revolution olf the timing shaft.

The three operating quadrants for the three screen chambers are of course timed to start rapping at regular intervals and the length o'j time which each screen will be rapped is determined by the angle between the dogs 86 and 87 on each pair ot collars 83 and Sil, the normal rapping time being approximately one minute for each twenty minutes of screening, but this will vary with the use to which the arrester is placed and the type and number ot machines with which it is used.

In a dust arrester which is operating continuously and in which each screen chamber is connected to a. common exhaust chamber, it is necessary to have the hopper bottoms closed so that air cannot be sucked therethrough and when one c liamber is being rapped and the dirt and dust knocked from t-he screen the chamber must not only be cut otl trom the dust-laden air supply but must also be provided with means whereby the dirt, dust or grit may be removed and at the same time the chamber must be substan tially sealed against the entrance ot air through the dust outlet. To accomplish this purpose each hopper neck 26, including that ot the settling chamber, is provided with a valve casing 110 having a lange 195 littrng over and secured to the neck 2li and having an outlet pipe 11.1.` Each casing has at its sides apertured bearing plates lf." carrying an operating shat't 1.13. the shalt et' one valve casing being coupled to the next by flexible couplings 114ito form a continuous shaft. llllithin the cylindrical center portion of the casin g is mounted rotating valve 115 comprising a series o'l blades or wings 116 here shown as tour in number, secured to gether to torni a squared central opening to receive the squared portion of the shaft U3 to drive the valve.

Thus each valve is a revolving member forming with the casing four compartments,`

vone fotwhich is open to 'lthe inlet and one 'of f which lisopen to lthe'outlct, but atfall times *one blade or 'wing closes each side Vofthe valtve preventing the. apassage et Aan air :cur-

rent therethrough. The valves are cont-inulously driven from lthe --op'eigating sha-tt.

y"lVIounted'on theoperating shai'tjatone point `Vis ea' sprocket 118 connected `by a chain 119 "Itoa sprocket l12() mounted on a. short shaft "121 carried byfa bearing bracket. 122 supvriorted from-one vofthe)brackets 70. This shattt 5121 hasa second sprocket wheel 123- ywhichl dri-ves ithe valve shatt 113 'by means a'chain 12a anda lsprocket 125. In orderto allow'ter cleaning the various ichambers oi' 'to `replace screens, each chamf'fberffis kprovided avi-tha door or removable .plate, Ithe v'doors 130- tor the screen chambers `bern-g-finounted in Ythe 'front thereot1 while -th'edoor :131 forthe exhaust chamber' is at the end as shown in F 1g. 5?.. Ain `entrance Ydoor (notshown) to the settlingchamber is lfalso'provided which is' located at the end V'oplpositeto that shown vin Fig. 2. The loperation oit the arrester in use fis continuous. `Starting -at Ythe beginning of, c la'E'cycletheexhaust Afan will be operatingand :fc ustladenfair will be entering the settling, chamber lthrough y'the inlet pipe 16.

A certa-in amount ot the dirt or grit, the heavier or coaser particles, -Will' be precip1- ftated iout in 'this chamber and Will be discharged through its rotating valve into a :suitable lreceptacle placedunder the valve.

lAt this Itime all'tliree `screen chambers Will be in operation, the rest of thedustdaden air-being draw-n lthrough the conduits 21, 22

#and 29j-Hand the lscreens inthe chambers Where the ivdirt and dust will be removed, the

lcleaned air passing-out through the exhaust chainber and through the suction tan. Vh'eir tlie.=arre'ster has Vbeen operated for approximately one thi-rd i the cycle, one

f of fthe ychambers will be shut oit `from the `clust-ladenair `through-the timing mecha-y nism and -t-he damper and the screen will be rapped Vor vibrated to'v drop lthe dust into a Ithe 'hopiperr Where it will Ipass vout through thevali'e lAt thefend `oie. the `First third hi. the cycle the lirst chamber will again be put 'inoperation and allthree chai-i-ibers will operaie rtogether unt-il `near the fend of the second-third oi" the-cycle, when the second `#chamber Will be 'eut oli' and the :screens Tapped. At the end of two-thirds ot the 'cycle 'the second .chamber will-again be vput `into vopera-tion `and near the Vend ot the complete cycle the thi-rd chamber 'will be cutoii, Irapped -aiidith'en 'restored 4to' operation.

T}ie\lengt-h ottime 'for-each cycle is fixed by the motor speed and the reduction gear- #ifi'ig'afnd will The determined `prior toi-setting up the arrester, depending lupon the Werl:

1'which the-arrester must doy that is, the kind .andaamount-ofl dirt, grit vor -tliehle te be ALee-1,2524

arrested and the volume` oi dust-laden pair tobe handled. Theflength'ot'tiiiie JWhich each screen is ifapped isl adjustable -by changing the relative osition of the collars Sfiand 84 Aon-thertiming shaft and will vbe `adjusted to suit operating conditions.A The size ot .the arrester and the size of the screen chamberswillbe varied to suit lthe conditions the arrester must meet and Where the screen chambers are large, -a 'pluralityr ot spring bars `and hammers Amay be used 'for each chamber, 'the `hainii'iers 'for each chamber being operatedl in unison.

vBy so arranging thearrester that it may rbe operated continuously no shutting'downot the machines `or other devices from which the dust and dirt is taken is necessary. `As all three chambers are operating lor.- the greater part' of the time it is 1not" essential chambers can carry the overload lfor theinconsiderable Atime which is used in ra 'ping the other chamber. "Thus time is save-t over the usual type ot arrester which must be shut down to rap 4'or vibrate thescreensaand this Iby increasing the total capacity 'ofthe arrester only slightly. The device is automatic in its operation and they timing Vand operating mechanism is outside of the arrester proper so as not to be covered With the collected dirt andfgrit.` Furthermore all operating parts are easy to get yat'and change, adjust Vor replace, as may Ahere-V quired.

ther modes oi applyingfthexprincipleof my invention may be `employed instead of the onel explained, change being made as re ygarde the mechanism herein'fdisclosed,:pro-

vided the means stated by any of the lfollowing claims or the equivalent of such stated -ineans be employed. y

l therefore particularly point out and )dis-V tinctly claiinas Vmy inventiont 1 1. In a .continuous dust i rrester, the combination oft' a settling chamber having 'adustf laden air intake,` plurality` of screen chambers individually connected tosaid 4settling chamber, suction exhaust :means connected to said screen chambers, continuous *dis-- charge njiea'ns tor said chambers adapted to to incre-ase lthe arrester capacity as lany two-- preyentingi'ess ol'v air therethrough into said Y chambers, and means `forselec'tively shutting ott the dust-laden an' supply 'to said 'cham-i bers and flier lrappingithe screens therein to remoye the 'accumulateddust. Y

2. 1n a continuous dust arrester, the coinbinati'on ot settling chamber having a Y said chafnibers, and powerdrivenV means adapted to automatically 'shut clown indi- Cil vidual chambers from suoli dust-laden air, rap the screens in such shut down chamber, discharge the accumulated dust and return such chambers to operation.

3. ln a continuous dust arrester, the com bination ot a settling chamber having a dusteladen air intuire, a plurality o't' screen chambers individually connected to said settling` chamber, suction exhaust means connected to said screen chambers, contiuuoiiis discharge means lor said chambers adapted lo prevent ingress ot air therethrough into said chambers, power driven means adapted io auton'iatically shut down individiiial chambersI trom such dust-laden air, rap the screens` in such shut down chamber and return said chambers to operation, and dis charge means tor all or said chambers adapted 'to discharge material continuously without allowing` ingress oit air through said discharge means.

4. ln a rontinuiuis d st arrester, the combination ot a settling' chamber havinga dust-laden air inlet, a iiihui'ality ol" screen chambers individually connected to said set` lling chamber, an exhaust chamber conimunicating),` with said screen chambers, and means tor creating an exhaust pressure in said exhaust chamber, discharge hoppers tor all said chambers, and power means adapted lo automatically cut oliil said screen chambers individually trom said settling' chann bei', vibrate the screens in the chamber cut ol'lVA lo drop the dirt into the hopper, and return said chamber to operation.

5i. in a continuous dust arrester, the com hination ot a settling chan'iber having` a dust-laden air inlet. a plurality ot screen (i-hamhers individually connected lo said set-- thug;l chamber, an exhaust chamber com municating with said screen chambers, and means tor creating` an exhaust pressure in said exhaust chamber, discharge hoppers 'for all said chambers, power means adapted to automatically cut oli said screen chambers ini'lividually from said settling` chamber, vibrate the screens in the chamber cut oli" to drop the dirt into the hopper, and return said chamber to operation, and rotating discharge valve means 'tor each hopper adapted to continuously discharge material and prevent ingress oi' air through said valve.

f5. ln a continuous dust arrester, the com bination ot a settling;` chamber provided with a dust-laden air inlet, a plurality o't screen chambers, individual conduits from said settling chamber to said screen chambers, an exhaust chamber communicating With said screen chambers, means for continuously providing` an exhaust pressure in said ex haust chambers, hoppers for all said cham hers, screen rapping means for the screens in each chamber, dampers in said individual conduits, and power driven means for clos ing;r said dampers and operating said rapping means.

7. ln a continuous dust arrester, the com bination oi' a settling,- chamber provided with a dust-laden air inlet, a plurality ot screen chambers, individual conduits from said settling; chamber to said screen cham bers, an exhaust chamber commuiiicating, with said sc"'een chamberaineans tor` con- -tii'uiously providing an exhaust pressure in 4.sind exhaust chambers, hoppers ior all said chambers, screen rappingl means tor the screens in each chamber, dampers in said individinil conduits, power driven means for closing id dempers and operating` said rapping means, and adjustable timing` means i'or controlling the closing` oi said chambers and the rapping thereo't so as to shut down each chan'iber and rap the screens therein 'tor the period necessary to remove the accumulated dust on said screens` 8. ln a continuous dust arrester, the coinbiuation of a settling,Y chamber provided 'with a dust-laden air inlet, a plurality ot' screen chambers, individual conduits lrom said settling* chamber to said screen cl'ian'ibers, an exhaust chamber communicating with said screen chambers, means tor continuously providing` an exhaust pressure in said exhaust chambers, hoppers 'for all said chambers, screen rapping means tor the screens vin cach chamber, dan'iiiers in said invidual conduits, power driven means :for closing said duinpers and operatinii said rapping means, adjustable timing means tor controlling` the closing` oit said chainbers and the rapping thereof so as to shut down each chamber and rap the screens therein :tor the period necessary to remore the accumulated dust on said screens, and continuously operating valves in said hoppers adapted to discharge accumulated dust and to prevent entrance of air through said valve.

9. ln a continuous dust arrester, the combination ot a settling chamber having4 a dustladcn air inlet, a plurality ot classifying screen chambers individually connected to said settling chamber, and suction exhaust tor said screen chambers.

10. ln a continuous dust arrester, the combination oit a settling?,` chamber having a dustladen air inlet, a plurality of classifying screen chambers iiulividually connected to said settling chamber, suction exhaust for said screen chambers, and. means lior selectively shutting ofi said screen chambers from said settling chamber.

ll. ln a. continuous dust arrester, the combination ot' a settling` chamber having a dustladen air inlet, a plurality of classifying screen chambers individually connected to said settlingchamber, suction exhaust lor said screen chambers, and means tor cona, dust-laden *air inlet tinuously removingdust from all of said Chambers Y Ina continuous dustarrester, the conibi'iiatipn Qfja'settling chamber, having/a dustfladenfair inlet, a Vplurality or" classifying,,screenA chambers individually connected tofs'aid, settling chamber, suction exhaust for saidscreenlv chambers, -means for selectively shiittiiigmofffsaid screen chambers from said tniiousd'chrge Ineens. for @adi Off Said Chambers adapted. te Prevent ingress-0f air therethrough to saidy chambers.

lsf. Ile-a continuum.dusteiiresten #becombnetqe Qasettng @Member having a dustladenairy inlet,v a, plurality of classifying sc ireen,chambersl individually connected toV said selittlingi.cliainbeigA suction exhaust for Sadsreen Chamber, and, meal-1S for, Selective 1y. ,shutting Qif'sa-id chambers and removing the; acciimiletddrt from; Seid` Screens Inacontinuous dust arrester, vthe combination of a settling, chamber having a dust'- laden air inlet, a pluralit of classifying screen chambers individua ly connected to said settling chamber, suction exhaust for said screen chambers, means for selectively shutting of said chambers,"andA meansA for continuously removing dust from all of said,"

chambers.V

16, In a continuousdust arrester,`the combination of a series ofscreen chambers, a

dust-laden air inlet Withindividual branchesv to4 each, chamber, suction exhaustmeans for and selectively: operatedl said' chambers, y means for closing offsaid branches, removing the accumulated dirtiijom the screens,

dischargingsuch dirt and automatically ieopening suchlbranches. l

17; ln a continuous dust arrester, the conibination ofscreen chambers, a dustfladen air inlet individually connected to said chambers, suction exhaust means for saidchambers, automatically operated' means for. sue-` cessively. cuttingnojl? the air supply to said' chambers, and means for removing the ac cumulated dirtl from said chambers,

Signed by me this 2nd, dayV ofFebruary, 1924. Y

encuen A. nonsens: 

